Exemplo n.º 1
0
    def invoke(self, arg, from_tty):
        log_buf_addr = int(
            str(gdb.parse_and_eval("(void *)'printk.c'::log_buf")).split()[0],
            16)
        log_first_idx = int(gdb.parse_and_eval("'printk.c'::log_first_idx"))
        log_next_idx = int(gdb.parse_and_eval("'printk.c'::log_next_idx"))
        log_buf_len = int(gdb.parse_and_eval("'printk.c'::log_buf_len"))

        inf = gdb.inferiors()[0]
        start = log_buf_addr + log_first_idx
        if log_first_idx < log_next_idx:
            log_buf_2nd_half = -1
            length = log_next_idx - log_first_idx
            log_buf = utils.read_memoryview(inf, start, length).tobytes()
        else:
            log_buf_2nd_half = log_buf_len - log_first_idx
            a = utils.read_memoryview(inf, start, log_buf_2nd_half)
            b = utils.read_memoryview(inf, log_buf_addr, log_next_idx)
            log_buf = a.tobytes() + b.tobytes()

        length_offset = printk_log_type.get_type()['len'].bitpos // 8
        text_len_offset = printk_log_type.get_type()['text_len'].bitpos // 8
        time_stamp_offset = printk_log_type.get_type()['ts_nsec'].bitpos // 8
        text_offset = printk_log_type.get_type().sizeof

        pos = 0
        while pos < log_buf.__len__():
            length = utils.read_u16(log_buf, pos + length_offset)
            if length == 0:
                if log_buf_2nd_half == -1:
                    gdb.write("Corrupted log buffer!\n")
                    break
                pos = log_buf_2nd_half
                continue

            text_len = utils.read_u16(log_buf, pos + text_len_offset)
            text_start = pos + text_offset
            text = log_buf[text_start:text_start + text_len].decode(
                encoding='utf8', errors='replace')
            time_stamp = utils.read_u64(log_buf, pos + time_stamp_offset)

            for line in text.splitlines():
                msg = u"[{time:12.6f}] {line}\n".format(time=time_stamp /
                                                        1000000000.0,
                                                        line=line)
                # With python2 gdb.write will attempt to convert unicode to
                # ascii and might fail so pass an utf8-encoded str instead.
                if sys.hexversion < 0x03000000:
                    msg = msg.encode(encoding='utf8', errors='replace')
                gdb.write(msg)

            pos += length
Exemplo n.º 2
0
def pr_cpumask(mask):
    nr_cpu_ids = 1
    if constants.LX_NR_CPUS > 1:
        nr_cpu_ids = gdb.parse_and_eval("nr_cpu_ids")

    inf = gdb.inferiors()[0]
    bits = mask['bits']
    num_bytes = (nr_cpu_ids + 7) / 8
    buf = utils.read_memoryview(inf, bits, num_bytes).tobytes()
    buf = binascii.b2a_hex(buf)

    chunks = []
    i = num_bytes
    while i > 0:
        i -= 1
        start = i * 2
        end = start + 2
        chunks.append(buf[start:end])
        if i != 0 and i % 4 == 0:
            chunks.append(',')

    extra = nr_cpu_ids % 8
    if 0 < extra <= 4:
        chunks[0] = chunks[0][0]  # Cut off the first 0

    return "".join(chunks)
Exemplo n.º 3
0
def pr_cpumask(mask):
    nr_cpu_ids = 1
    if constants.LX_NR_CPUS > 1:
        nr_cpu_ids = gdb.parse_and_eval("nr_cpu_ids")

    inf = gdb.inferiors()[0]
    bits = mask['bits']
    num_bytes = (nr_cpu_ids + 7) / 8
    buf = utils.read_memoryview(inf, bits, num_bytes).tobytes()
    buf = binascii.b2a_hex(buf)

    chunks = []
    i = num_bytes
    while i > 0:
        i -= 1
        start = i * 2
        end = start + 2
        chunks.append(buf[start:end])
        if i != 0 and i % 4 == 0:
            chunks.append(',')

    extra = nr_cpu_ids % 8
    if 0 < extra <= 4:
        chunks[0] = chunks[0][0]  # Cut off the first 0

    return "".join(chunks)
Exemplo n.º 4
0
    def invoke(self, arg, from_tty):
        log_buf_addr = int(str(gdb.parse_and_eval(
            "(void *)'printk.c'::log_buf")).split()[0], 16)
        log_first_idx = int(gdb.parse_and_eval("'printk.c'::log_first_idx"))
        log_next_idx = int(gdb.parse_and_eval("'printk.c'::log_next_idx"))
        log_buf_len = int(gdb.parse_and_eval("'printk.c'::log_buf_len"))

        inf = gdb.inferiors()[0]
        start = log_buf_addr + log_first_idx
        if log_first_idx < log_next_idx:
            log_buf_2nd_half = -1
            length = log_next_idx - log_first_idx
            log_buf = utils.read_memoryview(inf, start, length).tobytes()
        else:
            log_buf_2nd_half = log_buf_len - log_first_idx
            a = utils.read_memoryview(inf, start, log_buf_2nd_half)
            b = utils.read_memoryview(inf, log_buf_addr, log_next_idx)
            log_buf = a.tobytes() + b.tobytes()

        pos = 0
        while pos < log_buf.__len__():
            length = utils.read_u16(log_buf[pos + 8:pos + 10])
            if length == 0:
                if log_buf_2nd_half == -1:
                    gdb.write("Corrupted log buffer!\n")
                    break
                pos = log_buf_2nd_half
                continue

            text_len = utils.read_u16(log_buf[pos + 10:pos + 12])
            text = log_buf[pos + 16:pos + 16 + text_len].decode(
                encoding='utf8', errors='replace')
            time_stamp = utils.read_u64(log_buf[pos:pos + 8])

            for line in text.splitlines():
                msg = u"[{time:12.6f}] {line}\n".format(
                    time=time_stamp / 1000000000.0,
                    line=line)
                # With python2 gdb.write will attempt to convert unicode to
                # ascii and might fail so pass an utf8-encoded str instead.
                if sys.hexversion < 0x03000000:
                    msg = msg.encode(encoding='utf8', errors='replace')
                gdb.write(msg)

            pos += length
Exemplo n.º 5
0
    def invoke(self, arg, from_tty):
        log_buf_addr = int(str(gdb.parse_and_eval(
            "'printk.c'::log_buf")).split()[0], 16)
        log_first_idx = int(gdb.parse_and_eval("'printk.c'::log_first_idx"))
        log_next_idx = int(gdb.parse_and_eval("'printk.c'::log_next_idx"))
        log_buf_len = int(gdb.parse_and_eval("'printk.c'::log_buf_len"))

        inf = gdb.inferiors()[0]
        start = log_buf_addr + log_first_idx
        if log_first_idx < log_next_idx:
            log_buf_2nd_half = -1
            length = log_next_idx - log_first_idx
            log_buf = utils.read_memoryview(inf, start, length).tobytes()
        else:
            log_buf_2nd_half = log_buf_len - log_first_idx
            a = utils.read_memoryview(inf, start, log_buf_2nd_half)
            b = utils.read_memoryview(inf, log_buf_addr, log_next_idx)
            log_buf = a.tobytes() + b.tobytes()

        pos = 0
        while pos < log_buf.__len__():
            length = utils.read_u16(log_buf[pos + 8:pos + 10])
            if length == 0:
                if log_buf_2nd_half == -1:
                    gdb.write("Corrupted log buffer!\n")
                    break
                pos = log_buf_2nd_half
                continue

            text_len = utils.read_u16(log_buf[pos + 10:pos + 12])
            text = log_buf[pos + 16:pos + 16 + text_len].decode()
            time_stamp = utils.read_u64(log_buf[pos:pos + 8])

            for line in text.splitlines():
                gdb.write("[{time:12.6f}] {line}\n".format(
                    time=time_stamp / 1000000000.0,
                    line=line))

            pos += length
Exemplo n.º 6
0
    def invoke(self, arg, from_tty):
        log_buf_addr = int(
            str(gdb.parse_and_eval("'printk.c'::log_buf")).split()[0], 16)
        log_first_idx = int(gdb.parse_and_eval("'printk.c'::log_first_idx"))
        log_next_idx = int(gdb.parse_and_eval("'printk.c'::log_next_idx"))
        log_buf_len = int(gdb.parse_and_eval("'printk.c'::log_buf_len"))

        inf = gdb.inferiors()[0]
        start = log_buf_addr + log_first_idx
        if log_first_idx < log_next_idx:
            log_buf_2nd_half = -1
            length = log_next_idx - log_first_idx
            log_buf = utils.read_memoryview(inf, start, length).tobytes()
        else:
            log_buf_2nd_half = log_buf_len - log_first_idx
            a = utils.read_memoryview(inf, start, log_buf_2nd_half)
            b = utils.read_memoryview(inf, log_buf_addr, log_next_idx)
            log_buf = a.tobytes() + b.tobytes()

        pos = 0
        while pos < log_buf.__len__():
            length = utils.read_u16(log_buf[pos + 8:pos + 10])
            if length == 0:
                if log_buf_2nd_half == -1:
                    gdb.write("Corrupted log buffer!\n")
                    break
                pos = log_buf_2nd_half
                continue

            text_len = utils.read_u16(log_buf[pos + 10:pos + 12])
            text = log_buf[pos + 16:pos + 16 + text_len].decode()
            time_stamp = utils.read_u64(log_buf[pos:pos + 8])

            for line in text.splitlines():
                gdb.write("[{time:12.6f}] {line}\n".format(time=time_stamp /
                                                           1000000000.0,
                                                           line=line))

            pos += length
Exemplo n.º 7
0
    def invoke(self, arg, from_tty):

        if not constants.LX_CONFIG_OF:
            raise gdb.GdbError("Kernel not compiled with CONFIG_OF\n")

        if len(arg) == 0:
            filename = "fdtdump.dtb"
        else:
            filename = arg

        py_fdt_header_ptr = gdb.parse_and_eval(
            "(const struct fdt_header *) initial_boot_params")
        py_fdt_header = py_fdt_header_ptr.dereference()

        fdt_header = self.fdthdr_to_cpu(py_fdt_header)

        if fdt_header[0] != constants.LX_OF_DT_HEADER:
            raise gdb.GdbError("No flattened device tree magic found\n")

        gdb.write("fdt_magic:         0x{:02X}\n".format(fdt_header[0]))
        gdb.write("fdt_totalsize:     0x{:02X}\n".format(fdt_header[1]))
        gdb.write("off_dt_struct:     0x{:02X}\n".format(fdt_header[2]))
        gdb.write("off_dt_strings:    0x{:02X}\n".format(fdt_header[3]))
        gdb.write("off_mem_rsvmap:    0x{:02X}\n".format(fdt_header[4]))
        gdb.write("version:           {}\n".format(fdt_header[5]))
        gdb.write("last_comp_version: {}\n".format(fdt_header[6]))

        inf = gdb.inferiors()[0]
        fdt_buf = utils.read_memoryview(inf, py_fdt_header_ptr,
                                        fdt_header[1]).tobytes()

        try:
            f = open(filename, 'wb')
        except:
            raise gdb.GdbError("Could not open file to dump fdt")

        f.write(fdt_buf)
        f.close()

        gdb.write("Dumped fdt blob to " + filename + "\n")
Exemplo n.º 8
0
    def invoke(self, arg, from_tty):

        if not constants.LX_CONFIG_OF:
            raise gdb.GdbError("Kernel not compiled with CONFIG_OF\n")

        if len(arg) == 0:
            filename = "fdtdump.dtb"
        else:
            filename = arg

        py_fdt_header_ptr = gdb.parse_and_eval(
            "(const struct fdt_header *) initial_boot_params")
        py_fdt_header = py_fdt_header_ptr.dereference()

        fdt_header = self.fdthdr_to_cpu(py_fdt_header)

        if fdt_header[0] != constants.LX_OF_DT_HEADER:
            raise gdb.GdbError("No flattened device tree magic found\n")

        gdb.write("fdt_magic:         0x{:02X}\n".format(fdt_header[0]))
        gdb.write("fdt_totalsize:     0x{:02X}\n".format(fdt_header[1]))
        gdb.write("off_dt_struct:     0x{:02X}\n".format(fdt_header[2]))
        gdb.write("off_dt_strings:    0x{:02X}\n".format(fdt_header[3]))
        gdb.write("off_mem_rsvmap:    0x{:02X}\n".format(fdt_header[4]))
        gdb.write("version:           {}\n".format(fdt_header[5]))
        gdb.write("last_comp_version: {}\n".format(fdt_header[6]))

        inf = gdb.inferiors()[0]
        fdt_buf = utils.read_memoryview(inf, py_fdt_header_ptr,
                                        fdt_header[1]).tobytes()

        try:
            f = open(filename, 'wb')
        except:
            raise gdb.GdbError("Could not open file to dump fdt")

        f.write(fdt_buf)
        f.close()

        gdb.write("Dumped fdt blob to " + filename + "\n")
Exemplo n.º 9
0
    def invoke(self, arg, from_tty):
        if len(arg) == 0:
            filename = "config.txt"
        else:
            filename = arg

        try:
            py_config_ptr = gdb.parse_and_eval("kernel_config_data + 8")
            py_config_size = gdb.parse_and_eval(
                "sizeof(kernel_config_data) - 1 - 8 * 2")
        except gdb.error as e:
            raise gdb.GdbError("Can't find config, enable CONFIG_IKCONFIG?")

        inf = gdb.inferiors()[0]
        zconfig_buf = utils.read_memoryview(inf, py_config_ptr,
                                            py_config_size).tobytes()

        config_buf = zlib.decompress(zconfig_buf, 16)
        with open(filename, 'wb') as f:
            f.write(config_buf)

        gdb.write("Dumped config to " + filename + "\n")
Exemplo n.º 10
0
    def invoke(self, arg, from_tty):
        if len(arg) == 0:
            filename = "config.txt"
        else:
            filename = arg

        try:
            py_config_ptr = gdb.parse_and_eval("kernel_config_data + 8")
            py_config_size = gdb.parse_and_eval(
                    "sizeof(kernel_config_data) - 1 - 8 * 2")
        except gdb.error as e:
            raise gdb.GdbError("Can't find config, enable CONFIG_IKCONFIG?")

        inf = gdb.inferiors()[0]
        zconfig_buf = utils.read_memoryview(inf, py_config_ptr,
                                            py_config_size).tobytes()

        config_buf = zlib.decompress(zconfig_buf, 16)
        with open(filename, 'wb') as f:
            f.write(config_buf)

        gdb.write("Dumped config to " + filename + "\n")
Exemplo n.º 11
0
    def invoke(self, arg, from_tty):
        inf = gdb.inferiors()[0]

        # read in prb structure
        prb_addr = int(
            str(gdb.parse_and_eval("(void *)'printk.c'::prb")).split()[0], 16)
        sz = printk_ringbuffer_type.get_type().sizeof
        prb = utils.read_memoryview(inf, prb_addr, sz).tobytes()

        # read in descriptor ring structure
        off = printk_ringbuffer_type.get_type()['desc_ring'].bitpos // 8
        addr = prb_addr + off
        sz = prb_desc_ring_type.get_type().sizeof
        desc_ring = utils.read_memoryview(inf, addr, sz).tobytes()

        # read in descriptor array
        off = prb_desc_ring_type.get_type()['count_bits'].bitpos // 8
        desc_ring_count = 1 << utils.read_u32(desc_ring, off)
        desc_sz = prb_desc_type.get_type().sizeof
        off = prb_desc_ring_type.get_type()['descs'].bitpos // 8
        addr = utils.read_ulong(desc_ring, off)
        descs = utils.read_memoryview(inf, addr,
                                      desc_sz * desc_ring_count).tobytes()

        # read in text data ring structure
        off = printk_ringbuffer_type.get_type()['text_data_ring'].bitpos // 8
        addr = prb_addr + off
        sz = prb_data_ring_type.get_type().sizeof
        text_data_ring = utils.read_memoryview(inf, addr, sz).tobytes()

        # read in text data
        off = prb_data_ring_type.get_type()['size_bits'].bitpos // 8
        text_data_sz = 1 << utils.read_u32(text_data_ring, off)
        off = prb_data_ring_type.get_type()['data'].bitpos // 8
        addr = utils.read_ulong(text_data_ring, off)
        text_data = utils.read_memoryview(inf, addr, text_data_sz).tobytes()

        counter_off = atomic_long_type.get_type()['counter'].bitpos // 8

        sv_off = prb_desc_type.get_type()['state_var'].bitpos // 8

        off = prb_desc_type.get_type()['text_blk_lpos'].bitpos // 8
        begin_off = off + (prb_data_blk_lpos_type.get_type()['begin'].bitpos //
                           8)
        next_off = off + (prb_data_blk_lpos_type.get_type()['next'].bitpos //
                          8)

        off = prb_desc_type.get_type()['info'].bitpos // 8
        ts_off = off + printk_info_type.get_type()['ts_nsec'].bitpos // 8
        len_off = off + printk_info_type.get_type()['text_len'].bitpos // 8

        # definitions from kernel/printk/printk_ringbuffer.h
        desc_sv_bits = utils.get_long_type().sizeof * 8
        desc_committed_mask = 1 << (desc_sv_bits - 1)
        desc_reuse_mask = 1 << (desc_sv_bits - 2)
        desc_flags_mask = desc_committed_mask | desc_reuse_mask
        desc_id_mask = ~desc_flags_mask

        # read in tail and head descriptor ids
        off = prb_desc_ring_type.get_type()['tail_id'].bitpos // 8
        tail_id = utils.read_u64(desc_ring, off + counter_off)
        off = prb_desc_ring_type.get_type()['head_id'].bitpos // 8
        head_id = utils.read_u64(desc_ring, off + counter_off)

        did = tail_id
        while True:
            ind = did % desc_ring_count
            desc_off = desc_sz * ind

            # skip non-committed record
            state = utils.read_u64(
                descs, desc_off + sv_off + counter_off) & desc_flags_mask
            if state != desc_committed_mask:
                if did == head_id:
                    break
                did = (did + 1) & desc_id_mask
                continue

            begin = utils.read_ulong(descs,
                                     desc_off + begin_off) % text_data_sz
            end = utils.read_ulong(descs, desc_off + next_off) % text_data_sz

            # handle data-less record
            if begin & 1 == 1:
                text = ""
            else:
                # handle wrapping data block
                if begin > end:
                    begin = 0

                # skip over descriptor id
                text_start = begin + utils.get_long_type().sizeof

                text_len = utils.read_u16(descs, desc_off + len_off)

                # handle truncated message
                if end - text_start < text_len:
                    text_len = end - text_start

                text = text_data[text_start:text_start + text_len].decode(
                    encoding='utf8', errors='replace')

            time_stamp = utils.read_u64(descs, desc_off + ts_off)

            for line in text.splitlines():
                msg = u"[{time:12.6f}] {line}\n".format(time=time_stamp /
                                                        1000000000.0,
                                                        line=line)
                # With python2 gdb.write will attempt to convert unicode to
                # ascii and might fail so pass an utf8-encoded str instead.
                if sys.hexversion < 0x03000000:
                    msg = msg.encode(encoding='utf8', errors='replace')
                gdb.write(msg)

            if did == head_id:
                break
            did = (did + 1) & desc_id_mask